Log fitting machine



y 8, 1952 G. w. TIBBETS LOG FITTING MACHINE 5 Sheets-Sheet 1 Filed Aug. 17, 1948 gm ms 8 Inventor George W. Tibbefs y 8, 1952 G. w. TIBBETS LOG FITTING MACHINE Filed Aug. 17, 1948 5 Sheets-Sheet 2 In renter George W. Tibbefs July 8, 1952 G. w. TIBBETS 2,602,476

LOG FITTING MACHINE 5 Sheets-Sheet 5 Filed Aug. 17, 1948 Inventor George W. Ti bbefs y 1952 G. w. TIBBETS 2,602,476

LOG FITTING MACHINE Filed Aug. 17, 1948 5 Sheets-Sheet 4 Fig. 4.

Inventor George W. Tibbefs y 8, 1952 G. w. TIBBETS LOG FITTING MACHINE 5 Sheets-Sheet 5 Filed Aug. 1'7, 1948 George W. Tibbefs WWW V Another object'of this inventionistopr' Patented July 8, 1952 v F G-31 m? MA i ..GmrgeWATibbets;West ellowstonev-Mont.

This invention improvements in an apparatus for'treatingio'gs or other wooden sto'ck'in'sucha manner/that the logs fmay' beusjed for buildings cabins; houses, buildings and'the like. object of this invention "is to perform cut: ting operations on logs. ,the said cutting operationsinclud'ing cuttinggholes in alog,":'cutting a log at a preselected iengthycutting longitudinal fastening tongues andigrocvesthesame log and cuttihgfand' i fasteningfelements such" as tonguesjandigrooves onthis log;

Another object'of this invention is toprovideimproved'rneans-for carrying outthe' above-men tioned"functioniwhich is mounted orra carriage; having allyof the elementsnecess'ary'f or thec'ut-f tingoperations compact;onf this carriage and-the elementsjb'eing independent "of outside power; "i'A nother obj eat" 'of this invention "is to provide a cutting apparatus capable :of performing the aboy'e mentioned function which includes an improved staindior supporting :the logito' be treated or processed, thesaid stand including adjust able members for retaining=- the logs at a pre'- selected elevation 'and*'means-* for maintaining ibgs wmcn would ordinarily be too short' for efiectiv cutting operations, in a mannerso' that th y nay alsoi'be treated; V

nether object of "this 'nventi'on; is to aw-mount a carr mien; m-

riage supportsa-prir'ne mover anda transmission, the transmission preferably beingof-'the belt type in order to conduct torque to the cutting means of various'descriptionswhereby complete cutting 1 operations -ma"y"*be effected nfi a single v ee efficient and practical de'viceof -this type which renders it-unnecessary to use' -rgiany independent tools-io'r'processing logs. j

Ancillary objects -and f atures' of a novelty will beepinglapparenttd thos skilledqnthe a-rfl in fell'owirig the descriptio wpreferred-Eorm-oi 'the invention; iimstrat n the accompanying drawings;}wherein-:- A I I Figure '1 is a plan view -o of'the 'invention: j Figure 2 is an ievat'ionai' side -view of the invention shewn' i'n' Flgurm, Figurefi is -asecti'nal i'sw: take'n on the dine 3,116. iii fhe directln o'f rule preierred iorin arrows-3 e'cuenai viw ta en s s my e not direction 'reiatesto novel and useful ai iq sgg sg 7, 1948, Serial o. 44,678 j 1 4 ClaimS. (01. 144-134) j Figure 5 is a-sectionaiview taken substantially on theline 5 5of'Figure 2 and in the direction oi the arrows;v

Figure fiis a sectional detail of construction taken substantially on the line 6 -6 of'Figure 1 and in'the direction ofthe arrows;.

Figure "7 'is' a sectional view illustrating idetails of construction and taken on the line '!-1 of Figure '1 and in the direction ofthe arrows;

Figure 8- is a perspective view ofone of' the yokesused in log supporting; 1

Figure'Q'is a perspective view of a bar used in conjunctionwith the yokes' and the short logs which are' to be fmaintained*in position for cutting; v v

Figure 10 is'a sectional view of'the hole drilling or cutting means taken on the line Ill-'48 of Figure 1*;

Figure 'llisa perspective view of atypical log I afterbeing processed by the instant device;

Figure 12' is a fragmentary elevational view showing-a} portion of the log-with a groove cut therein by the instant device; 7 i 3 --Figu-re l3fis an elevational pictorial View; portions being broken away in section showinga utility of the logs; Figure -14-is a sectionabview taken on the line M-'-l 4- of Figure 15 and showing how the logs are joined; ai'nd-" v Figure 15 isa'sectional-view'taken-on the line 'l 5 l5 of Figure '14 andin the direction-of the In certain-regionswherein timber "is plentifuL-j it has been 1 customaryto build 'log cabins for-useas domiciles;-hunting lodgesi'resort' houses, 'etc. Ordinarily there are required several tools or 'several distinct-apparatus in-order to cut all of the tongues; groovesand other fastening elementsnecessary fonjoiningjtheiog's into a single log cabin. Therefore, it isonepfjtheprime purposes-of th'e ;-presentinventionto combine all of these tools s6; that they will operateon asin gle 'log ,-*without the necessityof "moving the stock successively-from one tool torthe next "Certain of-tiie 'cuttingfoperations'onlogsmay be: perg rmed simultaneously;- thereby further saving max.

l the present-invention consists offtwo main elefearriagegjand t me pertinent mechanism for periormi n'g tne cutting or'ie'rations onlogs eriotiier suitable stock. It is obvious that the present-3m- 255 vention is adapted primarily for cutting operations on logs, however, other wooden stock may be similarly processed, if it is found desirable. The primary functions of the stand are to rollingly support the carriage and to maintain logs in a selected position of elevation from the ground in order that the cutters on the carriage may operate on the logs. The feature of adjustability is incorporated in the log supporting mechanism in order that they may be retained at angles ofinclinati'oninorder to cut wedge-shaped slots, grooves,'torigues, etc., and in order that the logs may be maintained at the proper distance from the cutters in the carriage l2.

Means is incorporated in the log supporting mechanism for the purpose of maintaining short logs in position for cutting operations. Ordinarily such short logs would have to be cut to 4 verging side members 34 and 36, respectively. are provided. These yokes have extensions 38 and 40, respectively, of the said sides 34 and 36 which are maintained in spaced relation by means of a block 42 which is thermo-chemically joined to the extensions. At the diverging ends of the sides 34 and 36 there is formed a pair of bearings 44 and 46, respectively, in which there is attached a shaft 48.

. This, of course, mounts the shaft 48 for rotation size after the tongues and grooves or other similar fastening elements are formed therein. In the instant device all of the logs may be cut to a preselected size, if it isfound desirable, and placed on the stand in order that the processing may take place and the logs transported directly fromthe site of log treatment to the building site.

The carriage, generally indicated at [2, has various devices for performing cutting operations on logs positioned or mounted thereon. These various devices are driven'b'y acommon prime mover M, which is preferably'an internal combustion engine. Of course, it is within the purview of the invention to utilize an electrically operative motor in lieu of the internal combustion, howevenit is found that in regions wherein the class of device to which the present invention appertains is uti1ized,'an internal combustion engine is more practical, since often there is an absenoeof electrical current available.

Belts and pulleys, as well as shafts, are supplied on the carriage l 2 in order to transmit the torque from the engine 'l4 to the various cutters or ,cutting means. The said various cutting means includes a tool which may be raised and lowered for cuttingholes, slots, etc., in the log supported by the stand I0. Another cutting means includes .a device for cutting tongues and grooves selectively which is also rendered operative manually by an actuation lever which through the m edium ofv various linkages rocks a rockers or rocker arm, which arm carries J tongue and groove cutters atopposite ends thereof.

' Means for cutting fastening elements in the ends of the logs is provided and is also manually operative, the cutting means in this instance being raised and lowered in a reciprocatory manner. .The final cutting means is .a device which is resiliently mounted on the carriage and cuts the logs to size. An ordinaryv circular saw blade may be used in this connection, which is supportedv bya spring attachedto the carriage as well as the various other framing members.

The device includes primarily the elements mentioned above as broadly stated. The carriage must be mounted onthe stand for motionin order .that the logs to be out are maintained in the'proper position relative to the cutting elements on thecarriage. Accordingly, rails. l8 and 28, respectively, are provided on blocks 22, 24 and 26,. 28, respectively. The. two groups of blocks 22, 24 and 2,6,. 28 ;are parallel to each other in order that the small flanged wheels 38, connected by the axle 3 2, may be freely rollingly mounted he on Of u se t e Wh s andhe le f m :a portion of the said carriage l2-to be :described elsewhere. r .1

A pair of yokes, each ofwhich includesconin the opposite or opposed blocks 24 and 28. A suitable handle 50 is attached to the free end of .thevshaft .48 in order that this shaft may be manually and easily rotated, thereby carrying with it the yoke.

As seen in Figure 9, there are two yokes utilized in association with the stand l0. These yokes are identical in structure. A bar 52 is detachablyimounted on the spacing blocks 42 .of each yoke by means of depending ears 54 which flank each block 42 for reception of a pin 56 therein. Obviously, the bar 52 is then pivotally' movable onthe yokes upon rotation of the shaft 48. The utility of such a bar is to support a log after a groove has beencut therein; The groove will accommodate the particular cross section of the bar and maintain it firmly in position.

In order to cut logswhich are of a size that will not ordinarily be maintained firmly, a stop is slidably mounted on the bar '52. This stop includes a substantially "u-shaped element 58 having a screw, generally indicated at 60, extending through the substantially parallel ends thereof. Thus, a vice-like apparatusis effected. A substantiallyrectangular side 62 is attached to the bight of the U-shaped member 58 and is positioned directly over the bar 52. Thus, a substantially rectangular slide 62 is adapted to engage the end of a short log, thereby preventing it from sliding or slipping whencertain cutting operations are being performed thereon. It will be noted at this point that the .bar 52 and stop positioned thereon is used for short logs orstock which do not extend across the other-log or stock supporting means to be detailed at this time. If it is found desirable, both the'bar 52 and the stop mechanism thereon may be used simultaneously with the said other log supporting means, this being within the prerogative of the user of the device. e I e j Noting Figures 3 and 4, it will be seen that two substantiallyidentical structures are provided between the pairs of parallel blocks. Each log supporting mechanism includes a pair of cross arms 64 and 66, respectively, which are pivoted to a cross bar 68. This crossbar rests on the bottom blocks 24 and 28 of the'pairs of blocks and. if found desirable, maybe firmly attached thereto. It is also within the purview of the invention to simply rest the cross badjSfifioIlitheSflid bottom sired-bythe operator of the invention;of-course;

within the capabilities of the apparatusw I Attentio'n' is now directed primarily to Figures 11-15. for-a discussion et the product which is treated by the-present apparatus. Inspection oi the finished product will lead to-a clearer under standing" or" the end attained by utility of-the device. r

- In- Figure -alog 88- and-an-identical log 90 are supplied spacedrelation relative to each other. I A conventional; spacing strip- 92 used for maintaining thelo'g's in--spaced relation'relative to each other and-used for sealing the logs to each otherh This sealing-strip 92 simply-imbeds itself-in-the grooves 94' of the logs. These'particulargrooves 94" are longitudinally positioned or" formed in-the-logs, this beinga well known expedient for joining side logs of a cabin; house, etcJ Figure 1-2 illustrates the log-90 and the groove 94 and shows anadditional groove 06 ex' tending-across the-end; o f -the log 90 This groove 96 is formed by-a-separate cutting operation ofthe device and-by separate means. However, it

I is within the capabilities of the machineto out both thegrooves 94 and 96 simultaneously by simple manipulation of two-levers at the same time. v v

- Noting Figure "l l-,--this-plecef 0f stock 'orfin'ished log 98 has been trimmed at both ends and-has a longitudinal cut-out I00 at one portion thereof. Slots I02 and I64; respectively, -are-cut in the stock-t8 'bymeans' of a separate toolor cutting element as well as other pertinent mechanism in the-carriage I2.-The-said finished log 98 is a typical one utilizedfat certain places inbuilding logoabins: I a i 6 Of course, the illustration of Figure l5'shows theendsof; the logs 88 and 96-cut smoothly? and at substantially-'90 relative to the longitudinal axis'of the-logs. Such cutis efiect'ed by means of a separate and independent cutting element provided on" the carriage and actuated by the prime mOVBr M'; j I 2 Referring to various portions oi-the illustration of the portiori -of the cabin in; Figure 13; it will be immediately-obvious that certain of the logs have tong-ues- -f0rm"edthereoni This tongue-"is formedby the same or substantially the same mechanism (see Figure) which is utilized for cutting g' r'oove's'o'f th'elongitudinal type andlogs. The mechanism of Figure '7 is operative through the medium of a hand-actuatedleverjin order to selectively- 'engage eitherof the cutters I 06' or I08 withithelog supported inthestami. One type of blade cuts -grooves whilefthe other type of blade cutstonguesf Also, in Figure 13; itfwillbe'seen' mathemrality of relatively 'smalli diameter roof elements I Ill-are shown. 1 'Thus-,circularho1es or apertures "II2 must be provided inorder to'acc'ommodate these elements -I I0.- *-Theseholes are cutby the samemechan-isni which-performs-the slot cutting operationsto form the said slots l 02 and" I04.

The said carriage 12 h formed of iron constructionand; mgstly o-f-- framingii conventional radi at'or I141 and other appurtenances contiguous to aninte combustion enginearepro vided -onthe snsear age -I2 :such as the gasoline storage-tank I IB. Usual andconventional" straps I'I'B -maybeused forrigidly associatingthe tank II6 with'the'carriage;- 1 i Substantially parallel top frame members I20 and I22, respectively, form a portion of the carriage-and have'various-supports' I24, I26, I28 and others, respectively, dependingv thereirom. These side members connect lower substantially parallel longitudinal frame members I30 and I32, respectively, inorder toform a. substantially rectangular" body. I This substantially rectangular body has a-cantilever' portion formed'of rails or framemembers I34 and I36, respectively. These last-mentioned members I34 and I36 are continuationsofthe; upper frame members I22 and I24, respectivelya a 1 I The-said internal combustionengine I4 has a power shaft orcrank shaft extending therefrom in the usual manner and a pulley I40 attached thereto. This pulley has a belt =l 42 -extending therearound which also is entrained .over another pulley I44. Thelast-mentioned pulley is rigidly attached to-amain drive shaft I46journalled-in-suitablebearings I46 and I50, respectively, mountedon the said framing element I20. Of course,'-as is-seeninFigure 2 and-in Figure 1, the said pulley I'M-maybe of thedouble type and also-the pulle I44 thereby requiringtwobelts I42. This-is a matter of expediencysince there is a considerable amount of torque transferred from the crank shait'of the engine tov the shaft In-Fi'gurel it is apparent that the said shaft I46 has a bevelledgear I 52 attached thereto by means of a pin-I54; set screw or the like. The said bevelled gear is utilized as a powertake-off and will be described indetaillater.

The said shaft I46 also continues past the bevelled gear I52!- where-itis additionally supported bymeans of hangers or bearings I56. Another double sheaveorpulley I60 is attached adjacent the end oi the shaft I46 and has belts I 64 and I I 62 entrained therearound. These belts arealso entrained aroundanotherdouble type sheave or pulley I66 which is attached to a shaft I68. From theshaftI46, which is a driven shaft (by the engine I4), all of the power requisitein the efiicient operation: of the cutters on the-carriage I2issupp1ied."

.Attention isjnow directed to Figures 2, 4 and 10, respectively-gwherein the means for cutting holes in a log or other. stock supported-1m the stand isprovided and illustrated in-detaiL. This means includes a truss-like frame member, generally indicated at I'IB .(Figure 4),, having legs I; I82, I64 and I36, i respectively,v attached thereto. The said lastementioned legs are thrmo-chemically or. otherwise rigidly secured to a cylinder .186 which accommodatesa reciprocating and rotating shaft 190. This shaft is obviously slidable in the'bore of the cylinder I86. A conventioneltool coupling I92; ,is secured at one end of the said shaft I whilethe other end carries a drum, I 64 having a grooveI96 extending peripherally about the-surface thereof. A typical cutter; I98 is mounted the tool holder I92 in order to out both slots and holes in logs or other stock maintainediin the stand I0. Means for raising and lowering thesh'aft I90 provided; This means "may be seen best in 208. Th'efsaid collar 208 is fitted err-the drum I 94- and the' pins which are in theform of screws 7 extend not only throughcthe collar but terminate in the groove I96. Thus, sincethe'bifurcated cated lever or arm .200 may be seenj in Figure2- as including a pair of uprights 2I2 and 2I4, re-,

spectively, extending from the top rail I22 and thebottom rail I30. For ease. of actuation a pitman 2I6 is attached in one of several holes or apertures 2; in the end of the bifurcated arm 200, and in an aperture formed in the operating lever 220. This operating lever is of the first class, being attached at one end, to the upright 2I4 and having the pitman 2I6 attached thereto at ,a point spacedfrom the first mentioned pivotal connection.

A pulley 230-istattached to the reciprocative shaft I90 through the medium of a slot 232 extending longitudinally of the shaft I90 and a pin 234, c0nnection The pin is slidably received in the slot 232 and is attached to the pulley 230. A belt 236 extends around the pulley 230in'order to impart torque to the said shaft I90. Thrust bearings .240 and 242 ,are' secured, respectively, to the cylinder, I86 and the upper portion of the small frame I18. This limits the travel of the pulley longitudinally of the shaft I90 to zero or substantially zero but allows rotative movement of the pulley 230. Thus, the pin 234 is stationary relative to movement axial of the shaft I 90, thereby allowing only the shaft I90 to move axially,

and in reality through the actuation of the,

handle 220 a reciprocatory movement may be effected. The said thrust bearing 240 acts as a bushing for the shaft I90, andanother bushing 244 is supplied in the cylinder I86 spaced from the said thrust bearing 240.

The said belt 236 which imparts rotative movee ment to. the shaft I90 extends around a pulley 250 which is attached to a counter-shaft 252. Thisccounter-shaft has a sheave 254 attached thereto and a belt 256 extends therearound, This last-mentionedbelt 256is entrained around a pulley 258 which is. secured on a shaft 260. This last-mentioned shaft is journalled across the frame members I20 andI22 in suitable bearings dependingrfrom oneof the top, cross members of the carriage A. bevelled gear 262 1isaattached touthe saidshaft 260- and isumeshed, with the bevelled gear I62. Thus, from V the shaft I46 power is transmitted through the train of gears, belts, pulleys .and shaftsin thereverseorder as described above; .First the torque is taken from the .main drive shaft I46, thence to the bevelled gear262 and to the shaft 260. The torque is then carried from the pulley'258 on the shaft 260 through the belt 256,- the pulley 264, the haft 254 and, finally, tothe belt 236through-the medium ofthe pul1ey250. e Means for selectively cutting tongues and groovesilongitudinally of the logs or other stock carried by the stand' is provided. This means is mounted on the' cari iage and actuated by the internal'combustiori "engine I4 through the medium of "thefshaftldB." m Figure 7 it will be seen that ,ajroclier or frockerarmjm has the said cutters V i te d 10 detecta l e e i r app t n thereof. The said cutter I06 has two relatively wide bladesflankingf a relativelysmaller diameter b a e in o er h t th ma eria .Qfihe e i be s b ea in a tongue ext d qnelr tudinally thereof, when this blade is rendered operative. V

The said blade I08 has a relatively large diameter blade flanked by two relatively small diameter blades in order that the material in the longitudinal center of the log or stock may be cut away,thereby leaving a slot longitudinally of the said log. The said rocker is journalled on a shaft 212 extending across the lower frame members I and I32, respectively. An actuating rod portion 214 projects at substantially right angles from the said rocker arm 210 and has a pitman 216 attached thereto. This'pitman has a second pitman 218 attached at one end thereof which connects with an operating arm 280. This arm 280 is ;attached to a shaft 282having a handle 284 atone end thereof... This handle 284 is slotted at 286, and a pin 280 extends through the said slot. Y r

A smoothlycurved or arcuate rod 2901s attached to the upright I26 and the top frame member I22 and has a slot 292 formed therein. Thislast-mentioned slot also carries the pin 288, and a fastening construction such as the wing nut 234. is supplied on the end of the pin 288. Thus, the operating handle 284 may be moved a selective amount, thereby rockingly actuating the rocker 210 and maintaining either of the cutters I06 or I03 in operative engagement with a log which is to be treated. When the selected cutter is .adjustedthe desired, or required amount the wing nut construction 294 maybe tightened, and this cutter is rendered stationarilyoperative.

Meansforrendering the cutters operative is provided. The preferred means may be seen as a double sheave 296 provided on the said shaft 260 which is operatively associated with the shaft I46, as described above. The said double sheave 296 has a pair of belts 298 and 300 entrained therearound: which are also entrained around a second double sheave in this particular subsystem 302. The said double sheave 302 is journalled on ashaft 304 which extends across the carriage. Torque is derived from the shaft 260-throug'h the pulley 296, thence through the belts 298 and 300. Of course, the torque is then carried through the double sheave or double pulley 302,. thereby renderingthe shaft 304 live. A double sheave 306 is attached to the shaft 304 andhas a pairof belts 308 and 3H) entrained therearound, These belts extend over pulleys 3 I 2 and 3I 4, respectively, which areattached to shafts (unnumbered) carrying the said cutters I06 and I08, 'Qfcoursethe said unnumbered shafts extend through the terminals of the rocker 210, inorder to firmly support the cutters and shafts. V r Means for treating the'ends of logs such as cutting tongues or grooves therein is provided on the apparatusand may be seen best inFigures 6 and-2, respectively. A log 3I6 which has had a groove 3? out therein is illustrated adjacent the cutter blade 320.

A small frame, generally indicated at 322, is attached to th'elower frame members I30 and I32 as well as'a lower cross member- 324. This subassembly frame has a piston 326 reciprocatively mountedtherein and engaged by a plurality of rollers 328.. These rollers are journalled on suitable truss members provided in the sub-assembly frame-and forming a portion thereof. A pitman 330 is attached to the piston 326 by means of a pivot pin 332 and may be raised and lowered by means of a hand1e334; Thi handle is journalled ona shaft 336 whichis, inturn, mounted on the in Figure 6 :aooaavc upper longitudinal carriage members I22, and IZB,

' respectively. Conventional bearings maybe. used in this connection; Arpitman-f 338 is rigidlmattached to the shaft 336-andf:has;ai second-,pitman 346 attached. at one end thereon-The said second order tolock'the raising 'andflowering'pis on 326 in aselected position. Thus, 'with the cuttr 32a continually rotating, the entire carriage may?" simply be moved against a supported log in order to cut the groove at the end thereof or tongue by using another tool at a similar end of another log.

In order to guide the pitman 338 in its travel, a

- second pitman 352 is attached to the shaft 342 and also to a hanger 354 depending from the top members I22 and I20, respectively.

In order to render the cutter 326 operative, a belt 368 extends around a pulley 362 which is attached to the said shaft 268. Since this shaft 266 is live, as described above, torque is derived from the said shaft I46 and transmitted to the shaft 342 through the medium of the belt 368 and the other pulley 344 attached to the last-mentioned shaft. A second pulley 366 is also attached to the shaft 342, entraining the said belt 346 therearound and around another sheave (unshown), which is attached to a small shaft 368 carrying the said cutter 32 6 Thus, the said cutter 326 may be actuated, and is actuated, through the medium of the internal combustion engine I4.

The final cutting operation on the logs takes place by a separate mechanism also driven by the shaft I46. This final cutting operation includes the trimming off or cutting to size the logs or other stock, preferably wooden, as desired by the operator of the invention and as dictated by the needs of the particular job. Attention is directed primarily to Figures 1, 2 and 5 for this structure. The cantilever portion formed by the extensions I34 and I36 have cross members 388 and 382 rigidly attached thereto. These cross members have a bridge 384 rigidly associated therewith, and this bridge has a spring 386 or other equivalent resilient biasing means attached thereto. The said spring extends through an aperture in the said bridge 384 in order to render it detachable.

Another framing sub-assembly is suspended by means of the spring 386 and is generally indicated at 388. This sub-assembly includes framing or truss members and has a guard 380 attached adjacent the lower portion thereof. The guard is in juxtaposition relative to a conventional circular saw blade 394, which blade is supported on a shaft I68. The said shaft I68 is journalled in the framing sub-assembly 388 and the said shaft I68 projects from the sub-assembly 388, supporting a double sheave I66 thereon, as described elsewhere in the description. The said belts I62 and I64 are entrained around this doulole sheave or pulley I66 in order to actuate the small shaft I68 and carry with it the saw blade 394. Of course, if it is found desirable, additional belts and pulleys may be supplied herein in order to direct the line of thrust from one shaft to another in what might be considered a more advantageous manner.

Means for raising and lowering the entire suba slot 349 positionedrg assembly 388 and, therefore; the "blade-=31 I to the.selected,..desired elevated p'ositio' by manip -ilationv of. various-1 levers, as. fdescribed provided.

I-Iangers-4.8l1- are journalled on the shaft I46, and these hangers attach rigidly to the upper portion of the'frainesubi-as'sembly 388. A handle .462 is attached to the upper. portion ofthe sub-assembly frame 388 in or-der to pivotal-1y actuate the. hangers vabout the; shaft I46 as a center or axis. Thus; this entire sub-assembly 388 and the circular saw-.3342 may be selectively raisediandlowered in order .to cut off logs to presel'ected' sizes. r-

.irrltn stand and-:adju'sted Then,

The 1 log, is placed above, successive and some simultaneous operations may be performed on the logs. Holes may be cut therein, tongues cut, grooves cut, and other treating processes. The carriage is simply rolled back and forth, as desired, on the tracks or rails I8 and 26.

There is at all times a continuously operating shaft (while the engine is operative) transmitting torque to the various cutting elements and means. Thus, all of the cutters are operative simultaneously and one or two or more of the cutting means may be used to trim or otherwise treat logs or other stock.

It is apparent that certain variations may be made without departing from thespirit of the invention.

Having described the invention, what is claimed as new is: v

1. In an apparatus for performing cutting operations on a log, a cutter, a frame assembly including a pair of side members and having means at one pair of ends thereof to support said cutter, a drive connection for said cutter in part lying parallel to the side members and connected to said cutter, a spring attached tosaid frame to yieldingly and resiliently support said frame and said cutter, and means connected to said frame for manually displacing said frames against the opposing yielding force of said spring.

2. In an apparatus for performing cutting operations on logs, a carriage, a main drive shaft located on said carriage, a cutter, a hanger pivotally disposed on said main drive shaft at one end of said hanger and connected at the other end thereof to a frame assembly, said frame assembly having means thereon mounting said cutter for rotation, a drive connection between said cutter and said shaft, and yielding means connected to said frame assembly for opposing the pivotal movement of said frame assembly 4. An apparatus for performing cutting opera tions on logs, comprising a movably mounted carriage, a prime mover mounted thereon, means mounted on said carriage and actuated by said prime mover for cutting a log at a preselected length, said last-mentioned means including a frame assembly, means at one end of said frame assembly for retaining a saw, a resilient element secured to the opposite end of said frame assembly and attached to said carriage for resiliently supporting said frame assembly, said frame assembly including a pair of guide members havmg a guard at the lower end thereof, and said resilient element being connected to a member located between the upper ends of 'said guide members.

GEORGE W. TIBBETS.

REFERENCES CITED The following references are of record in the file of this patent:

UNITED STATES PATENTS Number Johnson Apr. 12, 1904 15 Number Number Name Date Wolf 1;; Mar. 30, 1915 Schumacher et a1. Feb. 3, 1920 Breidenbaoh Jan. 22, 1929 McCarroll May 16, 1933 Ford K May 23, 1933 Kaehlert Septp2, 1941 Swan'ger May 25, 1943 FOREIGN PATENTS Country Date Austria Sept. 26, 1927 Germany June 1, 1929 Sweden Apr. 10, 1945 

